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104 found
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Yurgens, Viktoria, Fontana, Yannik, Corazza, Andrea, Shields, Brendan J., Maletinsky, Patrick, & (2024). Cavity-assisted resonance fluorescence from a nitrogen-vacancy center in diamond [Journal-article]. npj Quantum Information, 10. https://doi.org/10.1038/s41534-024-00915-9
Yurgens, Viktoria, Fontana, Yannik, Corazza, Andrea, Shields, Brendan J., Maletinsky, Patrick, & (2024). Cavity-assisted resonance fluorescence from a nitrogen-vacancy center in diamond [Journal-article]. npj Quantum Information, 10. https://doi.org/10.1038/s41534-024-00915-9
Tomm, Natasha, Antoniadis, Nadia O., Janovitch, Marcelo, Brunelli, Matteo, Schott, Rüdiger, Valentin, Sascha R., Wieck, Andreas D., Ludwig, Arne, Potts, Patrick P., Javadi, Alisa, & (2024). Realization of a Coherent and Efficient One-Dimensional Atom [Journal-article]. Physical Review Letters, 133(8). https://doi.org/10.1103/physrevlett.133.083602
Tomm, Natasha, Antoniadis, Nadia O., Janovitch, Marcelo, Brunelli, Matteo, Schott, Rüdiger, Valentin, Sascha R., Wieck, Andreas D., Ludwig, Arne, Potts, Patrick P., Javadi, Alisa, & (2024). Realization of a Coherent and Efficient One-Dimensional Atom [Journal-article]. Physical Review Letters, 133(8). https://doi.org/10.1103/physrevlett.133.083602
Erbe, M., Berrazouane, R., Geyer, S., Stasi, L., van der Brugge, F., Gras, G., Schmidt, M., Wieck, A.D., Ludwig, A., Bussières, F., & (2024). Mo - Si superconducting nanowire single-photon detectors on Ga As [Journal-article]. Physical Review Applied, 22(1). https://doi.org/10.1103/physrevapplied.22.014072
Erbe, M., Berrazouane, R., Geyer, S., Stasi, L., van der Brugge, F., Gras, G., Schmidt, M., Wieck, A.D., Ludwig, A., Bussières, F., & (2024). Mo - Si superconducting nanowire single-photon detectors on Ga As [Journal-article]. Physical Review Applied, 22(1). https://doi.org/10.1103/physrevapplied.22.014072
Leisgang, Nadine, Miserev, Dmitry, Mattiat, Hinrich, Schneider, Lukas, Sponfeldner, Lukas, Watanabe, Kenji, Taniguchi, Takashi, Poggio, Martino, & (2024). Exchange Energy of the Ferromagnetic Electronic Ground State in a Monolayer Semiconductor [Journal-article]. Physical Review Letters, 133(2). https://doi.org/10.1103/physrevlett.133.026501
Leisgang, Nadine, Miserev, Dmitry, Mattiat, Hinrich, Schneider, Lukas, Sponfeldner, Lukas, Watanabe, Kenji, Taniguchi, Takashi, Poggio, Martino, & (2024). Exchange Energy of the Ferromagnetic Electronic Ground State in a Monolayer Semiconductor [Journal-article]. Physical Review Letters, 133(2). https://doi.org/10.1103/physrevlett.133.026501
Spinnler, Clemens, Nguyen, Giang N., Wang, Ying, Erbe, Marcel, Javadi, Alisa, Zhai, Liang, Scholz, Sven, Wieck, Andreas D., Ludwig, Arne, Lodahl, Peter, Midolo, Leonardo, & (2024). Quantum dot coupled to a suspended-beam mechanical resonator: From the unresolved- to the resolved-sideband regime [Journal-article]. Physical Review Applied, 21(3). https://doi.org/10.1103/physrevapplied.21.034046
Spinnler, Clemens, Nguyen, Giang N., Wang, Ying, Erbe, Marcel, Javadi, Alisa, Zhai, Liang, Scholz, Sven, Wieck, Andreas D., Ludwig, Arne, Lodahl, Peter, Midolo, Leonardo, & (2024). Quantum dot coupled to a suspended-beam mechanical resonator: From the unresolved- to the resolved-sideband regime [Journal-article]. Physical Review Applied, 21(3). https://doi.org/10.1103/physrevapplied.21.034046
Geyer, S., Hetényi, B., Bosco, S., Camenzind, L. C., Eggli, R. S., Fuhrer, A., Loss, D., Warburton, R. J., Zumbühl, D. M., & Kuhlmann, A. V. (2024). Anisotropic exchange interaction of two hole-spin qubits. Nature Physics. https://doi.org/10.1038/s41567-024-02481-5
Geyer, S., Hetényi, B., Bosco, S., Camenzind, L. C., Eggli, R. S., Fuhrer, A., Loss, D., Warburton, R. J., Zumbühl, D. M., & Kuhlmann, A. V. (2024). Anisotropic exchange interaction of two hole-spin qubits. Nature Physics. https://doi.org/10.1038/s41567-024-02481-5
Gawarecki, Krzysztof, Spinnler, Clemens, Zhai, Liang, Nguyen, Giang N., Ludwig, Arne, , Löbl, Matthias C., Reiter, Doris E., & Machnikowski, Paweł. (2023). Symmetry breaking via alloy disorder to explain radiative Auger transitions in self-assembled quantum dots [Journal-article]. Physical Review B, 108(23). https://doi.org/10.1103/physrevb.108.235410
Gawarecki, Krzysztof, Spinnler, Clemens, Zhai, Liang, Nguyen, Giang N., Ludwig, Arne, , Löbl, Matthias C., Reiter, Doris E., & Machnikowski, Paweł. (2023). Symmetry breaking via alloy disorder to explain radiative Auger transitions in self-assembled quantum dots [Journal-article]. Physical Review B, 108(23). https://doi.org/10.1103/physrevb.108.235410
Nguyen, Giang N., Spinnler, Clemens, Hogg, Mark R., Zhai, Liang, Javadi, Alisa, Schrader, Carolin A., Erbe, Marcel, Wyss, Marcus, Ritzmann, Julian, Babin, Hans-Georg, Wieck, Andreas D., Ludwig, Arne, & (2023). Enhanced Electron-Spin Coherence in a GaAs Quantum Emitter [Journal-article]. Physical Review Letters, 131(21). https://doi.org/10.1103/physrevlett.131.210805
Nguyen, Giang N., Spinnler, Clemens, Hogg, Mark R., Zhai, Liang, Javadi, Alisa, Schrader, Carolin A., Erbe, Marcel, Wyss, Marcus, Ritzmann, Julian, Babin, Hans-Georg, Wieck, Andreas D., Ludwig, Arne, & (2023). Enhanced Electron-Spin Coherence in a GaAs Quantum Emitter [Journal-article]. Physical Review Letters, 131(21). https://doi.org/10.1103/physrevlett.131.210805
Javadi, Alisa, Tomm, Natasha, Antoniadis, Nadia O, Brash, Alistair J, Schott, Rüdiger, Valentin, Sascha R, Wieck, Andreas D, Ludwig, Arne, & . (2023). Cavity-enhanced excitation of a quantum dot in the picosecond regime [Journal-article]. New Journal of Physics, 25(9), 93027. https://doi.org/10.1088/1367-2630/acf33b
Javadi, Alisa, Tomm, Natasha, Antoniadis, Nadia O, Brash, Alistair J, Schott, Rüdiger, Valentin, Sascha R, Wieck, Andreas D, Ludwig, Arne, & . (2023). Cavity-enhanced excitation of a quantum dot in the picosecond regime [Journal-article]. New Journal of Physics, 25(9), 93027. https://doi.org/10.1088/1367-2630/acf33b
Antoniadis, Nadia O., Hogg, Mark R., Stehl, Willy F., Javadi, Alisa, Tomm, Natasha, Schott, Rüdiger, Valentin, Sascha R., Wieck, Andreas D., Ludwig, Arne, & (2023). Cavity-enhanced single-shot readout of a quantum dot spin within 3 nanoseconds [Journal-article]. Nature Communications, 14. https://doi.org/10.1038/s41467-023-39568-1
Antoniadis, Nadia O., Hogg, Mark R., Stehl, Willy F., Javadi, Alisa, Tomm, Natasha, Schott, Rüdiger, Valentin, Sascha R., Wieck, Andreas D., Ludwig, Arne, & (2023). Cavity-enhanced single-shot readout of a quantum dot spin within 3 nanoseconds [Journal-article]. Nature Communications, 14. https://doi.org/10.1038/s41467-023-39568-1
de Kruijf, Mathieu, Geyer, Simon, Berger, Toni, Mergenthaler, Matthias, Braakman, Floris, , & Kuhlmann, Andreas V. (2023). A compact and versatile cryogenic probe station for quantum device testing [Journal-article]. Review of Scientific Instruments, 94(5). https://doi.org/10.1063/5.0139825
de Kruijf, Mathieu, Geyer, Simon, Berger, Toni, Mergenthaler, Matthias, Braakman, Floris, , & Kuhlmann, Andreas V. (2023). A compact and versatile cryogenic probe station for quantum device testing [Journal-article]. Review of Scientific Instruments, 94(5). https://doi.org/10.1063/5.0139825
Tomm, Natasha, Mahmoodian, Sahand, Antoniadis, Nadia O., Schott, Rüdiger, Valentin, Sascha R., Wieck, Andreas D., Ludwig, Arne, Javadi, Alisa, & (2023). Photon bound state dynamics from a single artificial atom [Journal-article]. Nature Physics, 19(6), 857–862. https://doi.org/10.1038/s41567-023-01997-6
Tomm, Natasha, Mahmoodian, Sahand, Antoniadis, Nadia O., Schott, Rüdiger, Valentin, Sascha R., Wieck, Andreas D., Ludwig, Arne, Javadi, Alisa, & (2023). Photon bound state dynamics from a single artificial atom [Journal-article]. Nature Physics, 19(6), 857–862. https://doi.org/10.1038/s41567-023-01997-6
Bosco, Stefano, Geyer, Simon, Camenzind, Leon C., Eggli, Rafael S., Fuhrer, Andreas, , Zumbühl, Dominik M., Egues, J. Carlos, Kuhlmann, Andreas V., & Loss, Daniel. (2023). Phase driving hole spin qubits. In Arxiv. Cornell University. https://doi.org/10.48550/arxiv.2303.03350
Bosco, Stefano, Geyer, Simon, Camenzind, Leon C., Eggli, Rafael S., Fuhrer, Andreas, , Zumbühl, Dominik M., Egues, J. Carlos, Kuhlmann, Andreas V., & Loss, Daniel. (2023). Phase driving hole spin qubits. In Arxiv. Cornell University. https://doi.org/10.48550/arxiv.2303.03350
Bosco, Stefano, Geyer, Simon, Camenzind, Leon C, Eggli, Rafael S, Fuhrer, Andreas, , Zumbühl, Dominik M, Egues, J. Carlos, Kuhlmann, Andreas V, & Loss, Daniel. (2023). Phase-Driving Hole Spin Qubits. Physical Review Letters, 131(19). https://doi.org/10.1103/physrevlett.131.197001
Bosco, Stefano, Geyer, Simon, Camenzind, Leon C, Eggli, Rafael S, Fuhrer, Andreas, , Zumbühl, Dominik M, Egues, J. Carlos, Kuhlmann, Andreas V, & Loss, Daniel. (2023). Phase-Driving Hole Spin Qubits. Physical Review Letters, 131(19). https://doi.org/10.1103/physrevlett.131.197001
Yurgens, V., Corazza, A., Zuber, J.A., Gruet, M., Kasperczyk, M., Shields, B.J., , Fontana, Y., & Maletinsky, P. (2022). Spectrally stable nitrogen-vacancy centers in diamond formed by carbon implantation into thin microstructures. Applied Physics Letters, 121(23). https://doi.org/10.1063/5.0126669
Yurgens, V., Corazza, A., Zuber, J.A., Gruet, M., Kasperczyk, M., Shields, B.J., , Fontana, Y., & Maletinsky, P. (2022). Spectrally stable nitrogen-vacancy centers in diamond formed by carbon implantation into thin microstructures. Applied Physics Letters, 121(23). https://doi.org/10.1063/5.0126669
Antoniadis, Nadia O., Tomm, Natasha, Jakubczyk, Tomasz, Schott, Rudiger, Valentin, Sascha R., Wieck, Andreas D., Ludwig, Arne, , & Javadi, Alisa. (2022). A chiral one-dimensional atom using a quantum dot in an open microcavity. Npj Quantum Information, 8(1), 27. https://doi.org/10.1038/s41534-022-00545-z
Antoniadis, Nadia O., Tomm, Natasha, Jakubczyk, Tomasz, Schott, Rudiger, Valentin, Sascha R., Wieck, Andreas D., Ludwig, Arne, , & Javadi, Alisa. (2022). A chiral one-dimensional atom using a quantum dot in an open microcavity. Npj Quantum Information, 8(1), 27. https://doi.org/10.1038/s41534-022-00545-z
Bart, N., Dangel, C., Zajac, P., Spitzer, N., Ritzmann, J., Schmidt, M., Babin, H. G., Schott, R., Valentin, S. R., Scholz, S., Wang, Y., Uppu, R., Najer, D., Loebl, M. C., Tomm, N., Javadi, A., Antoniadis, N. O., Midolo, L., Müller, K., et al. (2022). Wafer-scale epitaxial modulation of quantum dot density. Nature Communications, 13(1), 1633. https://doi.org/10.1038/s41467-022-29116-8
Bart, N., Dangel, C., Zajac, P., Spitzer, N., Ritzmann, J., Schmidt, M., Babin, H. G., Schott, R., Valentin, S. R., Scholz, S., Wang, Y., Uppu, R., Najer, D., Loebl, M. C., Tomm, N., Javadi, A., Antoniadis, N. O., Midolo, L., Müller, K., et al. (2022). Wafer-scale epitaxial modulation of quantum dot density. Nature Communications, 13(1), 1633. https://doi.org/10.1038/s41467-022-29116-8
Flågan, Sigurd, Maletinsky, Patrick, , & Riedel, Daniel. (2022). Microcavity platform for widely tunable optical double resonance. Optica, 9(10), 1197–1209. https://doi.org/10.1364/optica.466003
Flågan, Sigurd, Maletinsky, Patrick, , & Riedel, Daniel. (2022). Microcavity platform for widely tunable optical double resonance. Optica, 9(10), 1197–1209. https://doi.org/10.1364/optica.466003
Flågan, Sigurd, Riedel, Daniel, Javadi, Alisa, Jakubczyk, Tomasz, Maletinsky, Patrick, & (2022). A diamond-confined open microcavity featuring a high quality-factor and a small mode-volume. Journal of Applied Physics, 131(11), 113102. https://doi.org/10.1063/5.0081577
Flågan, Sigurd, Riedel, Daniel, Javadi, Alisa, Jakubczyk, Tomasz, Maletinsky, Patrick, & (2022). A diamond-confined open microcavity featuring a high quality-factor and a small mode-volume. Journal of Applied Physics, 131(11), 113102. https://doi.org/10.1063/5.0081577
Zhai, Liang, Nguyen, Giang N., Spinnler, Clemens, Ritzmann, Julian, Loebl, Matthias C., Wieck, Andreas D., Ludwig, Arne, Javadi, Alisa, & (2022). Quantum interference of identical photons from remote GaAs quantum dots. Nature Nanotechnology, 17(8), 829–833. https://doi.org/10.1038/s41565-022-01131-2
Zhai, Liang, Nguyen, Giang N., Spinnler, Clemens, Ritzmann, Julian, Loebl, Matthias C., Wieck, Andreas D., Ludwig, Arne, Javadi, Alisa, & (2022). Quantum interference of identical photons from remote GaAs quantum dots. Nature Nanotechnology, 17(8), 829–833. https://doi.org/10.1038/s41565-022-01131-2
Appel, Martin Hayhurst, Tiranov, Alexey, Javadi, Alisa, Lobl, Matthias C., Wang, Ying, Scholz, Sven, Wieck, Andreas D., Ludwig, Arne, , & Lodahl, Peter. (2021). Coherent Spin-Photon Interface with Waveguide Induced Cycling Transitions. Physical Review Letters, 126(1), 13602. https://doi.org/10.1103/physrevlett.126.013602
Appel, Martin Hayhurst, Tiranov, Alexey, Javadi, Alisa, Lobl, Matthias C., Wang, Ying, Scholz, Sven, Wieck, Andreas D., Ludwig, Arne, , & Lodahl, Peter. (2021). Coherent Spin-Photon Interface with Waveguide Induced Cycling Transitions. Physical Review Letters, 126(1), 13602. https://doi.org/10.1103/physrevlett.126.013602
Babin, Hans Georg, Ritzmann, Julian, Bart, Nikolai, Schmidt, Marcel, Kruck, Timo, Zhai, Liang, Lobl, Matthias C., Nguyen, Giang N., Spinnler, Clemens, Ranasinghe, Leonardo, , Heyn, Christian, Wieck, Andreas D., & Ludwig, Arne. (2021). Charge Tunable GaAs Quantum Dots in a Photonic n-i-p Diode. Nanomaterials, 11(10), 2703. https://doi.org/10.3390/nano11102703
Babin, Hans Georg, Ritzmann, Julian, Bart, Nikolai, Schmidt, Marcel, Kruck, Timo, Zhai, Liang, Lobl, Matthias C., Nguyen, Giang N., Spinnler, Clemens, Ranasinghe, Leonardo, , Heyn, Christian, Wieck, Andreas D., & Ludwig, Arne. (2021). Charge Tunable GaAs Quantum Dots in a Photonic n-i-p Diode. Nanomaterials, 11(10), 2703. https://doi.org/10.3390/nano11102703
Camenzind, Leon C., Geyer, Simon, Fuhrer, Andreas, , Zumbühl, Dominik M., & Kuhlmann, Andreas V. (2021). A hole spin qubit in a fin field-effect transistor above 4 kelvin. Nature electronics, 5(3), 178–183. https://doi.org/10.1038/s41928-022-00722-0
Camenzind, Leon C., Geyer, Simon, Fuhrer, Andreas, , Zumbühl, Dominik M., & Kuhlmann, Andreas V. (2021). A hole spin qubit in a fin field-effect transistor above 4 kelvin. Nature electronics, 5(3), 178–183. https://doi.org/10.1038/s41928-022-00722-0
Claudon, J., Kotal, S., Artioli, A., Finazzer, M., Fons, R., Genuist, Y., Bleuse, J., Gerard, J.-M., Wang, Y., Osterkryger, A. D., Gregersen, N., Munsch, M., Kuhlmann, A., Cadeddu, D., Poggio, M., , & Verlot, P. (2021, January 1). Nanowire antennas embedding single quantum dots: towards the emission of indistinguishable photons. International Conference on Numerical Simulation of Optoelectronic Devices. https://doi.org/10.1109/nusod52207.2021.9541487
Claudon, J., Kotal, S., Artioli, A., Finazzer, M., Fons, R., Genuist, Y., Bleuse, J., Gerard, J.-M., Wang, Y., Osterkryger, A. D., Gregersen, N., Munsch, M., Kuhlmann, A., Cadeddu, D., Poggio, M., , & Verlot, P. (2021, January 1). Nanowire antennas embedding single quantum dots: towards the emission of indistinguishable photons. International Conference on Numerical Simulation of Optoelectronic Devices. https://doi.org/10.1109/nusod52207.2021.9541487
Geyer, Simon, Camenzind, Leon C., Czornomaz, Lukas, Deshpande, Veeresh, Fuhrer, Andreas, , Zumbuhl, Dominik M., & Kuhlmann, Andreas V. (2021). Self-aligned gates for scalable silicon quantum computing. Applied Physics Letters, 118(10), 104004. https://doi.org/10.1063/5.0036520
Geyer, Simon, Camenzind, Leon C., Czornomaz, Lukas, Deshpande, Veeresh, Fuhrer, Andreas, , Zumbuhl, Dominik M., & Kuhlmann, Andreas V. (2021). Self-aligned gates for scalable silicon quantum computing. Applied Physics Letters, 118(10), 104004. https://doi.org/10.1063/5.0036520
Najer, Daniel, Tomm, Natasha, Javadi, Alisa, Korsch, Alexander R., Petrak, Benjamin, Riedel, Daniel, Dolique, Vincent, Valentin, Sascha R., Schott, Rudiger, Wieck, Andreas D., Ludwig, Arne, & (2021). Suppression of Surface-Related Loss in a Gated Semiconductor Microcavity. Physical review applied, 15(4), 44004. https://doi.org/10.1103/physrevapplied.15.044004
Najer, Daniel, Tomm, Natasha, Javadi, Alisa, Korsch, Alexander R., Petrak, Benjamin, Riedel, Daniel, Dolique, Vincent, Valentin, Sascha R., Schott, Rudiger, Wieck, Andreas D., Ludwig, Arne, & (2021). Suppression of Surface-Related Loss in a Gated Semiconductor Microcavity. Physical review applied, 15(4), 44004. https://doi.org/10.1103/physrevapplied.15.044004
Spinnler, Clemens, Zhai, Liang, Nguyen, Giang N., Ritzmann, Julian, Wieck, Andreas D., Ludwig, Arne, Javadi, Alisa, Reiter, Doris E., Machnikowski, Pawel, , & Loebl, Matthias C. (2021). Optically driving the radiative Auger transition. Nature Communications, 12(1), 6575. https://doi.org/10.1038/s41467-021-26875-8
Spinnler, Clemens, Zhai, Liang, Nguyen, Giang N., Ritzmann, Julian, Wieck, Andreas D., Ludwig, Arne, Javadi, Alisa, Reiter, Doris E., Machnikowski, Pawel, , & Loebl, Matthias C. (2021). Optically driving the radiative Auger transition. Nature Communications, 12(1), 6575. https://doi.org/10.1038/s41467-021-26875-8
Tomm, Natasha, Javadi, Alisa, Antoniadis, Nadia Olympia, Najer, Daniel, Loebl, Matthias Christian, Korsch, Alexander Rolf, Schott, Ruediger, Valentin, Sascha Rene, Wieck, Andreas Dirk, Ludwig, Arne, & . (2021). A bright and fast source of coherent single photons. Nature Nanotechnology, 16(4), 399–403. https://doi.org/10.1038/s41565-020-00831-x
Tomm, Natasha, Javadi, Alisa, Antoniadis, Nadia Olympia, Najer, Daniel, Loebl, Matthias Christian, Korsch, Alexander Rolf, Schott, Ruediger, Valentin, Sascha Rene, Wieck, Andreas Dirk, Ludwig, Arne, & . (2021). A bright and fast source of coherent single photons. Nature Nanotechnology, 16(4), 399–403. https://doi.org/10.1038/s41565-020-00831-x
Tomm, Natasha, Korsch, Alexander R., Javadi, Alisa, Najer, Daniel, Schott, Rudiger, Valentin, Sascha R., Wieck, Andreas D., Ludwig, Arne, & (2021). Tuning the Mode Splitting of a Semiconductor Microcavity with Uniaxial Stress. Physical Review Applied, 15(5), 54061. https://doi.org/10.1103/physrevapplied.15.054061
Tomm, Natasha, Korsch, Alexander R., Javadi, Alisa, Najer, Daniel, Schott, Rudiger, Valentin, Sascha R., Wieck, Andreas D., Ludwig, Arne, & (2021). Tuning the Mode Splitting of a Semiconductor Microcavity with Uniaxial Stress. Physical Review Applied, 15(5), 54061. https://doi.org/10.1103/physrevapplied.15.054061
Yurgens, Viktoria, Zuber, Josh A., Flagan, Sigurd, De Luca, Marta, Shields, Brendan J., Zardo, Ilaria, Maletinsky, Patrick, , & Jakubczyk, Tomasz. (2021). Low-Charge-Noise Nitrogen-Vacancy Centers in Diamond Created Using Laser Writing with a Solid-Immersion Lens. ACS Photonics, 8(6), 1726–1734. https://doi.org/10.1021/acsphotonics.1c00274
Yurgens, Viktoria, Zuber, Josh A., Flagan, Sigurd, De Luca, Marta, Shields, Brendan J., Zardo, Ilaria, Maletinsky, Patrick, , & Jakubczyk, Tomasz. (2021). Low-Charge-Noise Nitrogen-Vacancy Centers in Diamond Created Using Laser Writing with a Solid-Immersion Lens. ACS Photonics, 8(6), 1726–1734. https://doi.org/10.1021/acsphotonics.1c00274
Kasperczyk, M., Zuber, J. A., Barfuss, A., Koelbl, J., Yurgens, V., Flagan, S., Jakubczyk, T., Shields, B., , & Maletinsky, P. (2020). Statistically modeling optical linewidths of nitrogen vacancy centers in microstructures. Physical Review B, 102(7), 75312. https://doi.org/10.1103/physrevb.102.075312
Kasperczyk, M., Zuber, J. A., Barfuss, A., Koelbl, J., Yurgens, V., Flagan, S., Jakubczyk, T., Shields, B., , & Maletinsky, P. (2020). Statistically modeling optical linewidths of nitrogen vacancy centers in microstructures. Physical Review B, 102(7), 75312. https://doi.org/10.1103/physrevb.102.075312
Leisgang, Nadine, Shree, Shivangi, Paradisanos, Ioannis, Sponfeldner, Lukas, Robert, Cedric, Lagarde, Delphine, Balocchi, Andrea, Watanabe, Kenji, Taniguchi, Takashi, Marie, Xavier, , Gerber, Iann C., & Urbaszek, Bernhard. (2020). Giant Stark splitting of an exciton in bilayer MoS2. Nature Nanotechnology, 15(11), 901–907. https://doi.org/10.1038/s41565-020-0750-1
Leisgang, Nadine, Shree, Shivangi, Paradisanos, Ioannis, Sponfeldner, Lukas, Robert, Cedric, Lagarde, Delphine, Balocchi, Andrea, Watanabe, Kenji, Taniguchi, Takashi, Marie, Xavier, , Gerber, Iann C., & Urbaszek, Bernhard. (2020). Giant Stark splitting of an exciton in bilayer MoS2. Nature Nanotechnology, 15(11), 901–907. https://doi.org/10.1038/s41565-020-0750-1
Lobl, Matthias C., Spinnler, Clemens, Javadi, Alisa, Zhai, Liang, Nguyen, Giang N., Ritzmann, Julian, Midolo, Leonardo, Lodahl, Peter, Wieck, Andreas D., Ludwig, Arne, & (2020). Radiative Auger process in the single-photon limit. Nature Nanotechnology, 15(7), 558–562. https://doi.org/10.1038/s41565-020-0697-2
Lobl, Matthias C., Spinnler, Clemens, Javadi, Alisa, Zhai, Liang, Nguyen, Giang N., Ritzmann, Julian, Midolo, Leonardo, Lodahl, Peter, Wieck, Andreas D., Ludwig, Arne, & (2020). Radiative Auger process in the single-photon limit. Nature Nanotechnology, 15(7), 558–562. https://doi.org/10.1038/s41565-020-0697-2
Paradisanos, Ioannis, Shree, Shivangi, George, Antony, Leisgang, Nadine, Robert, Cedric, Watanabe, Kenji, Taniguchi, Takashi, , Turchanin, Andrey, Marie, Xavier, Gerber, Iann C., & Urbaszek, Bernhard. (2020). Controlling interlayer excitons in MoS2 layers grown by chemical vapor deposition. Nature Communications, 11(1), 2391. https://doi.org/10.1038/s41467-020-16023-z
Paradisanos, Ioannis, Shree, Shivangi, George, Antony, Leisgang, Nadine, Robert, Cedric, Watanabe, Kenji, Taniguchi, Takashi, , Turchanin, Andrey, Marie, Xavier, Gerber, Iann C., & Urbaszek, Bernhard. (2020). Controlling interlayer excitons in MoS2 layers grown by chemical vapor deposition. Nature Communications, 11(1), 2391. https://doi.org/10.1038/s41467-020-16023-z
Pedersen, Freja T., Wang, Ying, Olesen, Cecilie T., Scholz, Sven, Wieck, Andreas D., Ludwig, Arne, LObl, Matthias C., , Midolo, Leonardo, Uppu, Ravitej, & Lodahl, Peter. (2020). Near Transform-Limited Quantum Dot Linewidths in a Broadband Photonic Crystal Waveguide. ACS Photonics, 7(9), 2343–2349. https://doi.org/10.1021/acsphotonics.0c00758
Pedersen, Freja T., Wang, Ying, Olesen, Cecilie T., Scholz, Sven, Wieck, Andreas D., Ludwig, Arne, LObl, Matthias C., , Midolo, Leonardo, Uppu, Ravitej, & Lodahl, Peter. (2020). Near Transform-Limited Quantum Dot Linewidths in a Broadband Photonic Crystal Waveguide. ACS Photonics, 7(9), 2343–2349. https://doi.org/10.1021/acsphotonics.0c00758
Riedel, Daniel, Flagan, Sigurd, Maletinsky, Patrick, & (2020). Cavity-Enhanced Raman Scattering for in situ Alignment and Characterization of Solid-State Microcavities. Physical Review Applied, 13(1), 14036. https://doi.org/10.1103/physrevapplied.13.014036
Riedel, Daniel, Flagan, Sigurd, Maletinsky, Patrick, & (2020). Cavity-Enhanced Raman Scattering for in situ Alignment and Characterization of Solid-State Microcavities. Physical Review Applied, 13(1), 14036. https://doi.org/10.1103/physrevapplied.13.014036
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